CN113788996A - High-wear-resistance high-temperature-resistance oil-resistance high-pressure-resistance rubber sealing material for oil extraction in oil field - Google Patents

Abstract

The invention relates to the technical field of rubber, in particular to a high-wear-resistance high-temperature-resistance oil-resistance high-pressure-resistance rubber sealing material for oil extraction in an oil field, which is characterized in that rubber compound is weighed out according to a proportion and put into a rubber mixing mill, the roll temperature of the rubber mixing mill is controlled at 30-50 ℃ for plastication, the plastication time is 20-25min, when the viscosity reaches 10-12, the rubber is uniformly mixed, and the rubber is thinly passed through for three times and then is sliced down, and is placed for 12 hours for standby application; putting the prepared rubber sheet into a rubber mixing mill again, wherein the roll temperature is 20-50 ℃, mixing, and after the rubber sheet is wrapped by a roll, proportionally adding ultrahigh-temperature-resistant and high-wear-resistant carbon black, a crosslinking agent, coumarone resin, an anti-aging agent, zinc oxide, stearic acid, an anti-friction agent, an accelerator and sulfur to prepare a semi-finished product of rubber mixing; mixing the rubber compoundThe semi-finished product is taken out, weighed and placed into a mould, the wear-resistant fiber is paved on the surface of the semi-finished product, and then the semi-finished product is heated to 160 ℃ for 150 ℃ and pressurized to 4kg/cm on a 160-ton vulcanizing machine²And (4) vulcanizing for 20-25 minutes to prepare the packing.

Description

High-wear-resistance high-temperature-resistance oil-resistance high-pressure-resistance rubber sealing material for oil extraction in oil field

Technical Field

The invention relates to the technical field of rubber, in particular to a high-wear-resistance, high-temperature-resistance, oil-resistance and high-pressure-resistance rubber sealing material for oil extraction in an oil field.

Background

The oil field is continuously developed, the oil extraction process level is continuously improved, the requirements on rubber are higher and higher, and the temperature difference of different well heads is larger. In view of the above, we propose a high wear-resistant, high temperature-resistant, oil-resistant, and high pressure-resistant rubber sealing material for oil extraction in oil fields.

Disclosure of Invention

The invention aims to provide a high-wear-resistance high-temperature-resistance oil-resistance high-pressure-resistance rubber sealing material for oil extraction in an oil field, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a high-wear-resistance high-temperature-resistance oil-resistance high-pressure-resistance rubber sealing material for oil extraction in oil fields comprises the following raw materials in parts by weight:

preferably, the rubber compound is one or a mixture of more of butyronitrile rubber compound, hydrogenated butyronitrile rubber compound and tetrapropylene fluoride rubber compound.

Preferably, the wear-resistant fiber is Kevlar fiber or special cloth.

Preferably, the preparation method of the special cloth comprises the following steps: preparing linen fibers, placing the linen fibers in a mixed solution of dimethyl silicone oil and ethanol, keeping the temperature at 28-30 ℃, taking out the linen fibers after soaking for 5-8min, and coating a layer of polytetrafluoroethylene on the surface of the linen fibers.

In the present invention, the antioxidant is preferably any one of N-phenyl- α -aniline, N-phenyl- β -naphthylamine, and p-phenylenediamine.

Preferably, the friction reducer is any one of coke, molybdenum disulfide and graphite.

In the present invention, the accelerator is preferably any one of 2-mercaptobenzothiazole, dibenzothiazyl disulfide, N-cyclohexyl-2-benzothiazylsulfenamide, and tetramethylthiuram disulfide.

Preferably, the crosslinking agent is a DCP crosslinking agent.

Preferably, the preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 165-plus-190 Kpa to 700-plus-900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by virtue of a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas with hot air sent out from the air distribution chamber, controlling the combustion temperature at 1900-plus-1927 ℃, spraying anthracene oil preheated to 180-plus-260 ℃ from a throat section of the reaction furnace, carrying out pyrolysis reaction for 6-20 milliseconds in a reaction section of the reaction furnace through atomization and shearing to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

As a preferred mode of the present invention, the preparation method comprises the following steps:

step 1: weighing the mixed rubber according to a proportion, putting the mixed rubber into a rubber mixing mill, plasticating the roller temperature of the rubber mixing mill at 30-50 ℃, uniformly mixing the mixed rubber when the plasticating time is 20-25min and the viscosity reaches 10-12, thinly passing the mixed rubber for three times, and placing the mixed rubber for 12 hours for later use;

step 2: putting the prepared rubber sheet into a rubber mixing mill again, wherein the roll temperature is 20-50 ℃, mixing, and after the rubber sheet is wrapped by a roll, proportionally adding ultrahigh-temperature-resistant and high-wear-resistant carbon black, a crosslinking agent, coumarone resin, an anti-aging agent, zinc oxide, stearic acid, an anti-friction agent, an accelerator and sulfur to prepare a semi-finished product of rubber mixing;

and step 3: the semi-finished product of the rubber compound prepared in the step 2 is taken out, weighed and placed in a mould, the surface is paved with wear-resistant fiber, and then the semi-finished product is heated to 160 ℃ with 150 ℃ in a 160-ton vulcanizing machine and pressurized to 4kg/cm²And (4) vulcanizing for 20-25 minutes to prepare the packing.

Compared with the prior art, the invention has the beneficial effects that:

the invention adopts the carbon black with ultrahigh temperature resistance and high wear resistance as the carbon black substitute of the rubber packing material, wherein natural gas is taken as fuel, anthracene oil is taken as raw oil, the adopted raw oil has reasonable structure, the quality of the carbon black product is better, the particle size of the produced carbon black product is extremely small, the distribution is narrower, the structure is higher, and the vulcanized rubber has super wear resistance and high temperature resistance, meanwhile, the outside of the anti-friction fiber is provided with the anti-friction fiber, so that the anti-friction performance is further improved, and under the synergistic action of the anti-friction agent and the cross-linking agent, as the graphite, molybdenum disulfide and other antifriction agents have similar layered structures at the low temperature of 20-50 ℃, the high-temperature high-wear-resistance carbon black has strong interaction with the surface structure of the high-temperature high-wear-resistance carbon black, and can initiate the polymerization reaction between the high-temperature high-wear-resistance carbon black and the coumarone resin under the vulcanization effect of the DCP crosslinking agent, so that the high-temperature high-wear-resistance carbon black can be well fused with rubber compound in a molten state.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the following embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Wherein the content of the first and second substances,

the embodiment of the invention uses:

hydrogenated nitrile rubber compound was purchased from Heizhou Haiba rubber, Inc.

Kevlar fiber is available from Guangdong Tevulon New materials applications, Inc.

DCP crosslinkers were purchased from Jinan hong Engineers, Inc.

Coumarone resins were purchased from Shandong Yunjing chemical Co., Ltd.

The anti-aging agent is purchased from Shijiazhuangti Taisheng chemical Co.

The friction reducer was purchased from Qingdao Dongkei graphite, Inc.

The accelerator was purchased from Shandong Chuanjian auxiliary agent Co.

Example 1

Weighing 100 parts of hydrogenated butyronitrile rubber compound, and putting the rubber compound into a rubber mixing millIn the process, the roll temperature of a rubber refining machine is controlled at 50 ℃ for plastication, the plastication time is 20min, when the viscosity reaches 10, the mixture is uniformly mixed, and the mixture is thinly passed through for discharging for 12 hours for standby; putting the prepared rubber sheet into a rubber mixing mill again, starting mixing at the roller temperature of 50 ℃, after the rubber sheet is coated with rollers, adding 20 parts of ultra-high temperature resistant and high wear resistant carbon black, 5 parts of DCP cross-linking agent, 8 parts of coumarone resin, 1 part of N-phenyl-alpha-aniline, 4 parts of zinc oxide, 3 parts of stearic acid, 1 part of graphite, 1 part of dibenzothiazyl disulfide and 3 parts of sulfur to prepare a semi-finished product of rubber compound; taking out the semi-finished product of the rubber compound, weighing, putting into a mould, paving 18 parts of Kevlar fiber on the surface, heating to 150 ℃ on a 160-ton vulcanizing machine, and pressurizing by 4kg/cm²And (5) vulcanizing for 20 minutes to prepare the packing.

The preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 180Kpa to 700-plus 900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas and the hot air sent by the air distribution chamber, controlling the combustion temperature at 1900 ℃, spraying anthracene oil with the preheated temperature of 260 ℃ from a throat pipe section of the reaction furnace, atomizing and shearing the anthracene oil, carrying out 10 milliseconds of cracking reaction in a reaction section of the reaction furnace to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

Example 2

Weighing 100 parts of hydrogenated butyronitrile rubber compound, putting the hydrogenated butyronitrile rubber compound into a rubber mixing mill, plasticating the rubber mixing mill at the roll temperature of 50 ℃, uniformly mixing the rubber compound for 20min when the viscosity reaches 10, thinly passing the rubber compound for three times, and placing the rubber compound for 12 hours for later use; putting the prepared rubber sheet into a rubber mixing mill again, starting mixing at the roller temperature of 50 ℃, after the rubber sheet is coated with rollers, adding 21 parts of ultrahigh-temperature-resistant and high-wear-resistant carbon black, 5 parts of DCP cross-linking agent, 8 parts of coumarone resin, 1 part of N-phenyl-alpha-aniline, 4 parts of zinc oxide, 3 parts of stearic acid, 1 part of graphite, 1 part of dibenzothiazyl disulfide and 3 parts of sulfur to prepare a semi-finished product of rubber compound; the semi-finished product of the rubber compound is taken out, weighed and placed into a mould, 18 parts of Kevlar fiber is paved on the surface of the semi-finished product, and then the semi-finished product is heated to 150 ℃ on a 160-ton vulcanizing machine, and the pressure is 4kg/cm²And (5) vulcanizing for 20 minutes to prepare the packing.

The preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 180Kpa to 700-plus 900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas and the hot air sent by the air distribution chamber, controlling the combustion temperature at 1900 ℃, spraying anthracene oil with the preheated temperature of 260 ℃ from a throat pipe section of the reaction furnace, atomizing and shearing the anthracene oil, carrying out 10 milliseconds of cracking reaction in a reaction section of the reaction furnace to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

Example 3

Weighing 100 parts of hydrogenated butyronitrile rubber compound, putting the hydrogenated butyronitrile rubber compound into a rubber mixing mill, plasticating the rubber mixing mill at the roll temperature of 50 ℃, uniformly mixing the rubber compound for 20min when the viscosity reaches 10, thinly passing the rubber compound for three times, and placing the rubber compound for 12 hours for later use; putting the parked rubber sheet into a rubber mixing mill again, starting mixing at the roller temperature of 50 ℃, after the rubber sheet is coated with the roller, adding 22 parts of ultra-high temperature resistant and high wear resistant carbon black, 5 parts of DCP cross-linking agent, 8 parts of coumarone resin, 1 part of N-phenyl-alpha-aniline, 4 parts of zinc oxide, 3 parts of stearic acid, 1 part of graphite, 1 part of dibenzothiazyl disulfide and 3 parts of sulfur to prepare a semi-finished product of rubber compound; taking out the semi-finished product of the rubber compound, weighing, putting into a mould, paving 18 parts of Kevlar fiber on the surface, heating to 150 ℃ on a 160-ton vulcanizing machine, and pressurizing by 4kg/cm²And (5) vulcanizing for 20 minutes to prepare the packing.

The preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 180Kpa to 700-plus 900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas and the hot air sent by the air distribution chamber, controlling the combustion temperature at 1900 ℃, spraying anthracene oil with the preheated temperature of 260 ℃ from a throat pipe section of the reaction furnace, atomizing and shearing the anthracene oil, carrying out 10 milliseconds of cracking reaction in a reaction section of the reaction furnace to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

Example 4

Weighing 100 parts of hydrogenated butyronitrile rubber compound, putting the hydrogenated butyronitrile rubber compound into a rubber mixing mill, plasticating the rubber mixing mill at the roll temperature of 50 ℃, uniformly mixing the rubber compound for 20min when the viscosity reaches 10, thinly passing the rubber compound for three times, and placing the rubber compound for 12 hours for later use; putting the parked rubber sheet into a rubber mixing mill again, starting mixing at the roller temperature of 50 ℃, after the rubber sheet is coated with rollers, adding 23 parts of ultra-high temperature resistant and high wear resistant carbon black, 5 parts of DCP cross-linking agent, 8 parts of coumarone resin, 1 part of N-phenyl-alpha-aniline, 4 parts of zinc oxide, 3 parts of stearic acid, 1 part of graphite, 1 part of dibenzothiazyl disulfide and 3 parts of sulfur to prepare a semi-finished product of rubber compound; taking out the semi-finished product of the rubber compound, weighing, putting into a mould, paving 18 parts of Kevlar fiber on the surface, heating to 150 ℃ on a 160-ton vulcanizing machine, and pressurizing by 4kg/cm²And (5) vulcanizing for 20 minutes to prepare the packing.

The preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 180Kpa to 700-plus 900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas and the hot air sent by the air distribution chamber, controlling the combustion temperature at 1900 ℃, spraying anthracene oil with the preheated temperature of 260 ℃ from a throat pipe section of the reaction furnace, atomizing and shearing the anthracene oil, carrying out 10 milliseconds of cracking reaction in a reaction section of the reaction furnace to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

Example 5

Weighing 100 parts of hydrogenated butyronitrile rubber compound, putting the hydrogenated butyronitrile rubber compound into a rubber mixing mill, plasticating the rubber mixing mill at the roll temperature of 50 ℃, uniformly mixing the rubber compound for 20min when the viscosity reaches 10, thinly passing the rubber compound for three times, and placing the rubber compound for 12 hours for later use; putting the parked rubber sheet into a rubber mixing mill again, starting mixing at the roller temperature of 50 ℃, after the rubber sheet is coated with the roller, putting 24 parts of ultra-high temperature resistant and high wear resistant carbon black, 5 parts of DCP cross-linking agent, 8 parts of coumarone resin, 1 part of N-phenyl-alpha-aniline, 4 parts of zinc oxide, 3 parts of stearic acid, 1 part of graphite, 1 part of dibenzothiazyl disulfide and 3 parts of sulfur into the rubber mixing mill to prepare a semi-finished product of rubber compound; will be provided withThe semi-finished product of the rubber compound is taken out, weighed and placed into a mould, 18 parts of Kevlar fiber is paved on the surface of the semi-finished product, and then the semi-finished product is heated to 150 ℃ on a 160-ton vulcanizing machine, and the pressure is 4kg/cm²And (5) vulcanizing for 20 minutes to prepare the packing.

The preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 180Kpa to 700-plus 900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas and the hot air sent by the air distribution chamber, controlling the combustion temperature at 1900 ℃, spraying anthracene oil with the preheated temperature of 260 ℃ from a throat pipe section of the reaction furnace, atomizing and shearing the anthracene oil, carrying out 10 milliseconds of cracking reaction in a reaction section of the reaction furnace to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

Example 6

Weighing 100 parts of hydrogenated butyronitrile rubber compound, putting the hydrogenated butyronitrile rubber compound into a rubber mixing mill, plasticating the rubber mixing mill at the roll temperature of 50 ℃, uniformly mixing the rubber compound for 20min when the viscosity reaches 10, thinly passing the rubber compound for three times, and placing the rubber compound for 12 hours for later use; putting the parked rubber sheet into a rubber mixing mill again, starting mixing at the roller temperature of 50 ℃, after the rubber sheet is coated with the roller, adding 25 parts of ultra-high temperature resistant and high wear resistant carbon black, 5 parts of DCP cross-linking agent, 8 parts of coumarone resin, 1 part of N-phenyl-alpha-aniline, 4 parts of zinc oxide, 3 parts of stearic acid, 1 part of graphite, 1 part of dibenzothiazyl disulfide and 3 parts of sulfur to prepare a semi-finished product of rubber compound; taking out the semi-finished product of the rubber compound, weighing, putting into a mould, paving 18 parts of Kevlar fiber on the surface, heating to 150 ℃ on a 160-ton vulcanizing machine, and pressurizing by 4kg/cm²And (5) vulcanizing for 20 minutes to prepare the packing.

The preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 180Kpa to 700-plus 900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas and the hot air sent by the air distribution chamber, controlling the combustion temperature at 1900 ℃, spraying anthracene oil with the preheated temperature of 260 ℃ from a throat pipe section of the reaction furnace, atomizing and shearing the anthracene oil, carrying out 10 milliseconds of cracking reaction in a reaction section of the reaction furnace to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

Example 7

Weighing 100 parts of hydrogenated butyronitrile rubber compound, putting the hydrogenated butyronitrile rubber compound into a rubber mixing mill, plasticating the rubber mixing mill at the roll temperature of 50 ℃, uniformly mixing the rubber compound for 20min when the viscosity reaches 10, thinly passing the rubber compound for three times, and placing the rubber compound for 12 hours for later use; putting the parked rubber sheet into a rubber mixing mill again, starting mixing at the roller temperature of 50 ℃, after the rubber sheet is coated with rollers, adding 18 parts of ultrahigh-temperature-resistant and high-wear-resistant carbon black, 5 parts of DCP cross-linking agent, 8 parts of coumarone resin, 1 part of N-phenyl-alpha-aniline, 4 parts of zinc oxide, 3 parts of stearic acid, 1 part of graphite, 1 part of dibenzothiazyl disulfide and 3 parts of sulfur to prepare a semi-finished product of rubber compound; taking out the semi-finished product of the rubber compound, weighing, putting into a mould, paving 18 parts of Kevlar fiber on the surface, heating to 150 ℃ on a 160-ton vulcanizing machine, and pressurizing by 4kg/cm²And (5) vulcanizing for 20 minutes to prepare the packing.

The preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 180Kpa to 700-plus 900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas and the hot air sent by the air distribution chamber, controlling the combustion temperature at 1900 ℃, spraying anthracene oil with the preheated temperature of 260 ℃ from a throat pipe section of the reaction furnace, atomizing and shearing the anthracene oil, carrying out 10 milliseconds of cracking reaction in a reaction section of the reaction furnace to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

Example 8

Weighing 100 parts of hydrogenated butyronitrile rubber compound, putting the hydrogenated butyronitrile rubber compound into a rubber mixing mill, plasticating the rubber mixing mill at the roll temperature of 50 ℃, uniformly mixing the rubber compound for 20min when the viscosity reaches 10, thinly passing the rubber compound for three times, and placing the rubber compound for 12 hours for later use; putting the prepared film into a rubber mixing mill again, starting mixing at the roll temperature of 50 ℃, and after the film is coated with a roll, adding 28 parts of ultra-high temperature resistant and high wear resistant carbon black, 5 parts of DCP crosslinking agent and 8 parts of coumarone resin1 part of N-phenyl-alpha-aniline, 4 parts of zinc oxide, 3 parts of stearic acid, 1 part of graphite, 1 part of dibenzothiazyl disulfide and 3 parts of sulfur to prepare a semi-finished product of rubber compound; taking out the semi-finished product of the rubber compound, weighing, putting into a mould, paving 18 parts of Kevlar fiber on the surface, heating to 150 ℃ on a 160-ton vulcanizing machine, and pressurizing by 4kg/cm²And (5) vulcanizing for 20 minutes to prepare the packing.

The preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 180Kpa to 700-plus 900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas and the hot air sent by the air distribution chamber, controlling the combustion temperature at 1900 ℃, spraying anthracene oil with the preheated temperature of 260 ℃ from a throat pipe section of the reaction furnace, atomizing and shearing the anthracene oil, carrying out 10 milliseconds of cracking reaction in a reaction section of the reaction furnace to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

Through a large number of exploratory tests. The wear volume and the high temperature resistance, oil resistance and high pressure resistance of the rubber sealing material for oil extraction in the oil field of examples 1 to 8 are tested by referring to the method of GB 1689-1998, and the high temperature resistance is tested. In the experiment, a controlled variable method is adopted, in the examples 1 to 8, under the condition that other conditions are not changed, the weight parts of the doped ultrahigh temperature resistant and high wear resistant carbon black are only changed, and the experimental result is 5 times of averaging.

The test results are given in the following table:

TABLE 1 influence of parts by weight of ultra-high temperature and high abrasion resistant carbon black incorporated on abrasion volume and high temperature resistance

As can be seen from the data in the table above, when the weight part of the ultra-high temperature resistant and high wear resistant carbon black is less than 20 parts, the wear volume is obviously increased, and when the weight part of the ultra-high temperature resistant and high wear resistant carbon black is more than 25 parts, the tolerance temperature is obviously reduced, so that the optimal doping amount of the ultra-high temperature resistant and high wear resistant carbon black is 20-25 parts.

Comparative example 1

Under the condition that other conditions are not changed in the embodiment 1, only the carbon black with ultrahigh temperature resistance and high wear resistance is replaced by the common carbon black.

Comparative example 2

In the case of example 1, the other conditions were not changed, only the friction reducer graphite was removed.

Comparative example 3

In the case of example 1, under otherwise unchanged conditions, only the DCP crosslinker was removed.

Example 1 and comparative examples 1 to 3 were again tested according to the test method of table 1, and the results are shown in the following table: TABLE 2 influence of the synergistic effect of the ultra-high temperature and high wear resistance carbon black with friction reducer and cross-linking agent on the wear volume and high temperature resistance

As can be seen from the data in Table 4, when the ultra-high temperature and high wear resistance carbon black is common carbon black, the wear volume is obviously increased, the tolerance temperature is also obviously reduced, and after the friction reducer or the cross-linking agent is removed, the wear volume is obviously increased, the tolerance temperature is also obviously reduced, thus proving the superiority of the synergistic effect of the ultra-high temperature and high wear resistance carbon black, the friction reducer and the cross-linking agent.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The high-wear-resistance high-temperature-resistance oil-resistance high-pressure-resistance rubber sealing material for oil extraction in the oil field is characterized by comprising the following components in parts by weight: the material comprises the following components by weight:

2. the high wear-resistant high temperature-resistant oil-resistant high pressure-resistant rubber sealing material for oil recovery in the oil field according to claim 1, characterized in that: the rubber compound is any one or mixture of more of butyronitrile rubber compound, hydrogenated butyronitrile rubber compound and tetrapropylene fluoride rubber compound.

3. The high wear-resistant high temperature-resistant oil-resistant high pressure-resistant rubber sealing material for oil recovery in the oil field according to claim 1, characterized in that: the wear-resistant fiber is Kevlar fiber or special cloth.

4. The high wear-resistant high temperature-resistant oil-resistant high pressure-resistant rubber sealing material for oil recovery in the oil field according to claim 1, characterized in that: the preparation method of the special cloth comprises the following steps: preparing linen fiber, placing in mixed solution of methyl silicone oil and ethanol, maintaining the temperature at 28-30 deg.C, soaking for 5-8min, taking out, and coating a layer of polytetrafluoroethylene on the surface.

5. The high wear-resistant high temperature-resistant oil-resistant high pressure-resistant rubber sealing material for oil recovery in the oil field according to claim 1, characterized in that: the anti-aging agent is any one of N-phenyl-alpha-aniline, N-phenyl-beta-naphthylamine and p-phenylenediamine.

6. The high wear-resistant high temperature-resistant oil-resistant high pressure-resistant rubber sealing material for oil recovery in the oil field according to claim 1, characterized in that: the friction reducer is any one of coke, molybdenum disulfide and graphite.

7. The high wear-resistant high temperature-resistant oil-resistant high pressure-resistant rubber sealing material for oil recovery in the oil field according to claim 1, characterized in that: the accelerator is any one of 2-mercaptobenzothiazole, dibenzothiazyl disulfide, N-cyclohexyl-2-benzothiazole sulfonamide and tetramethyl thiuram disulfide.

8. The high wear-resistant high temperature-resistant oil-resistant high pressure-resistant rubber sealing material for oil recovery in the oil field according to claim 1, characterized in that: the crosslinking agent is a DCP crosslinking agent.

9. The high wear-resistant high temperature-resistant oil-resistant high pressure-resistant rubber sealing material for oil recovery in the oil field according to claim 1, characterized in that: the preparation method of the ultrahigh temperature resistant and high wear resistant carbon black comprises the following steps: preheating air compressed to 165-plus-190 Kpa to 700-plus-900 ℃ by an air preheater, sending the air to an air distribution chamber of a reaction furnace by virtue of a hot air pipeline, sending natural gas to a combustion chamber of the reaction furnace, mixing and combusting the natural gas with hot air sent out from the air distribution chamber, controlling the combustion temperature at 1900-plus-1927 ℃, spraying anthracene oil preheated to 180-plus-260 ℃ from a throat section of the reaction furnace, carrying out pyrolysis reaction for 6-20 milliseconds in a reaction section of the reaction furnace through atomization and shearing to generate carbon black smoke, and cooling and granulating the carbon black smoke to obtain the ultrahigh-temperature-resistant and high-wear-resistant carbon black.

10. The high wear-resistant high temperature-resistant oil-resistant high pressure-resistant rubber sealing material for oil recovery in the oil field according to claim 1, characterized in that: the preparation method comprises the following steps:

step 1: weighing the mixed rubber according to a proportion, putting the mixed rubber into a rubber mixing mill, plasticating the roller temperature of the rubber mixing mill at 30-50 ℃, uniformly mixing the mixed rubber when the plasticating time is 20-25min and the viscosity reaches 10-12, thinly passing the mixed rubber for three times, and placing the mixed rubber for 12 hours for later use;

step 2: putting the prepared rubber sheet into a rubber mixing mill again, wherein the roll temperature is 20-50 ℃, mixing, and after the rubber sheet is wrapped by a roll, proportionally adding ultrahigh-temperature-resistant and high-wear-resistant carbon black, a crosslinking agent, coumarone resin, an anti-aging agent, zinc oxide, stearic acid, an anti-friction agent, an accelerator and sulfur to prepare a semi-finished product of rubber mixing;

and step 3: the semi-finished product of the rubber compound prepared in the step 2 is taken out, weighed and placed in a mould, the surface is paved with wear-resistant fiber, and then the semi-finished product is heated to 160 ℃ with 150 ℃ in a 160-ton vulcanizing machine and pressurized to 4kg/cm²And (4) vulcanizing for 20-25 minutes to prepare the packing.